Zoppas
Enrico Zoppas, Conegliano Veneto IT
Patent application number | Description | Published |
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20110011824 | ASEPTIC PUSH-PULL STOPPER - A stopper of the push-pull type, comprising | 01-20-2011 |
Enrico Zoppas, Conegliano IT
Patent application number | Description | Published |
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20100314348 | PLASTIC MATERIAL CONTAINER - A plastic material container, e.g. a beverage bottle, having a neck which requires the use of a smaller amount of plastic than the bottle necks of the prior art, and which is able to ensure a complete functionality for coupling the cap, ensuring at the same time the possibility of implementing the traditional supporting; sealing and handling operations of the bottle carried out during the various steps of manufacturing the same. | 12-16-2010 |
Federico Zoppas, Treviso IT
Patent application number | Description | Published |
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20140199054 | BIPHASIC HEAT EXCHANGE RADIATOR WITH OPTIMISATION OF THE BOILING TRANSIENT - A radiator of the thermosiphon type comprising a collector situated in the lowest part of the radiator, and adapted to contain an intermediate vector fluid, an external heat source, placed within the collector, wherein the intermediate vector fluid is adapted to evaporate on contact with a hot surface of the external heat source, at least one vertical tube containing therein one or more channels ( | 07-17-2014 |
20140199055 | HYDRONIC/BIPHASIC RADIATOR WITH REDUCED THERMAL INERTIA AND LOW ENVIRONMENTAL IMPACT - A radiator with reduced thermal inertia, based on the principle of phase changing, using a non-toxic, non-flammable fluid with reduced environmental impact. The radiator is provided by means of vertical pipes which engage a collector containing a pipe bundle-type exchanger with smooth or finned pipes, internally crossed by the thermo-vector fluid of the system, and which heat the intermediate vector fluid, bringing it to the biphasic state. The vector fluid evaporates, rising up the vertical pipes, flowing through the channels obtained in the extruded profiles of the vertical pipes themselves. The fluid re-descends, condensing on the walls, returning into contact with the hot pipes of the exchanger in order to re-evaporate and rise back up the vertical pipes. The film of condensed liquid provides the required heat exchange. The terminal is further equipped with mechanical parts which allow the inserting of temperature sensors for possible monitoring and control of consumption and system operation and control thereof, by means of on-board electronic control devices (electric valves) and remote devices suitably operating in radio-frequency. | 07-17-2014 |
20140217190 | A TUBULAR SECTION BAR FOR A BIPHASIC RADIATOR AND RELATIVE BIPHASIC RADIATOR - A tubular section bar ( | 08-07-2014 |
20140233931 | SECTION BAR FOR A HEATER AND FLUID FLOW HEATER, IN PARTICULAR FOR COFFEE MACHINES - The section bar ( | 08-21-2014 |
Federico Zoppas, San Vendemiano IT
Patent application number | Description | Published |
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20140331815 | Proximity and contact sensor device in motor vehicle steering wheels - A proximity and contact sensor device in motor vehicle steering wheels includes an extendable band, the length of which is slightly less than the circumference of the steering wheel and of which one surface has fixed to it at least one conductive track covered with a bi-adhesive layer, the conductive track consisting of a flat metal path obtained by treating a metal sheet applied to the extendable band, the conductive track being connected to a multi-channel capacitive sensor circuit connected by a field bus to the vehicle control unit. | 11-13-2014 |
Matteo Zoppas, Fontanafredda (pn) IT
Patent application number | Description | Published |
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20110262658 | PROCESS AND DEVICE FOR TREATING THE COATING OF THERMOPLASTIC RESIN CONTAINERS - A process and device for drying the coating of containers made of thermoplastic material. The process involves feeding said containers through a furnace divided into two areas: in the first, most of the solvent of the coating is removed by heating the paint with infrared lamps, while the temperature of the containers is controlled through an airflow; in the second, the remaining solvent is removed using said airflow coming from the first area of the furnace. | 10-27-2011 |